Preparation, Structure, and Properties of Ni3Al and NiAl Light Powder Alloys for Aerospace
New light super-heat-resistant powder Ni3Al and NiAl-based alloys (of the Ni-Al-Mo-B, Ni-Al-Fe-La, and Ni-Al-Y2O3 systems), as well as a new technology for preparing and processing them have been developed. The density of the alloys was 7.3-7.5 and ~6 g/cm 3, respectively. The Ni3Al sheets were used...
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| Veröffentlicht in: | Materials science forum 2007-01, Vol.534-536, p.1585-1588 |
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| creator | Povarova, K.B. Skachkov, O.A. |
| description | New light super-heat-resistant powder Ni3Al and NiAl-based alloys (of the Ni-Al-Mo-B,
Ni-Al-Fe-La, and Ni-Al-Y2O3 systems), as well as a new technology for preparing and processing
them have been developed. The density of the alloys was 7.3-7.5 and ~6 g/cm 3, respectively. The
Ni3Al sheets were used to prepare shields for combustion chambers in gas-turbine engines by roomtemperature
deformation; the shields are intended for the long-term operation at 1100-1200°C and
for the short-term use at 1300°C. The activated NiAl powders alloyed with Fe+La were used to
produce sintered complex-shape articles, such as combustion stabilizers in a jet unit of combustion
chamber of the gas-turbine installation, heat sources, etc. capable of operating at t≤1500°C under
low mechanical stresses. At 1100, 1300, and 1500°C, the 100-h strength of the heat-resistant NiAl-
(2-7.5) vol. % Y2O3 alloys subjected to directional recrystallization is 70, 35 and ≥10 MPa,
respectively. The vanes, in which the length of recrystallized grain is smaller than the vane length
by a factor of 1.5-2, were manufactured from these alloys. |
| doi_str_mv | 10.4028/www.scientific.net/MSF.534-536.1585 |
| format | Article |
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Ni-Al-Fe-La, and Ni-Al-Y2O3 systems), as well as a new technology for preparing and processing
them have been developed. The density of the alloys was 7.3-7.5 and ~6 g/cm 3, respectively. The
Ni3Al sheets were used to prepare shields for combustion chambers in gas-turbine engines by roomtemperature
deformation; the shields are intended for the long-term operation at 1100-1200°C and
for the short-term use at 1300°C. The activated NiAl powders alloyed with Fe+La were used to
produce sintered complex-shape articles, such as combustion stabilizers in a jet unit of combustion
chamber of the gas-turbine installation, heat sources, etc. capable of operating at t≤1500°C under
low mechanical stresses. At 1100, 1300, and 1500°C, the 100-h strength of the heat-resistant NiAl-
(2-7.5) vol. % Y2O3 alloys subjected to directional recrystallization is 70, 35 and ≥10 MPa,
respectively. The vanes, in which the length of recrystallized grain is smaller than the vane length
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Ni-Al-Fe-La, and Ni-Al-Y2O3 systems), as well as a new technology for preparing and processing
them have been developed. The density of the alloys was 7.3-7.5 and ~6 g/cm 3, respectively. The
Ni3Al sheets were used to prepare shields for combustion chambers in gas-turbine engines by roomtemperature
deformation; the shields are intended for the long-term operation at 1100-1200°C and
for the short-term use at 1300°C. The activated NiAl powders alloyed with Fe+La were used to
produce sintered complex-shape articles, such as combustion stabilizers in a jet unit of combustion
chamber of the gas-turbine installation, heat sources, etc. capable of operating at t≤1500°C under
low mechanical stresses. At 1100, 1300, and 1500°C, the 100-h strength of the heat-resistant NiAl-
(2-7.5) vol. % Y2O3 alloys subjected to directional recrystallization is 70, 35 and ≥10 MPa,
respectively. The vanes, in which the length of recrystallized grain is smaller than the vane length
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Ni-Al-Fe-La, and Ni-Al-Y2O3 systems), as well as a new technology for preparing and processing
them have been developed. The density of the alloys was 7.3-7.5 and ~6 g/cm 3, respectively. The
Ni3Al sheets were used to prepare shields for combustion chambers in gas-turbine engines by roomtemperature
deformation; the shields are intended for the long-term operation at 1100-1200°C and
for the short-term use at 1300°C. The activated NiAl powders alloyed with Fe+La were used to
produce sintered complex-shape articles, such as combustion stabilizers in a jet unit of combustion
chamber of the gas-turbine installation, heat sources, etc. capable of operating at t≤1500°C under
low mechanical stresses. At 1100, 1300, and 1500°C, the 100-h strength of the heat-resistant NiAl-
(2-7.5) vol. % Y2O3 alloys subjected to directional recrystallization is 70, 35 and ≥10 MPa,
respectively. The vanes, in which the length of recrystallized grain is smaller than the vane length
by a factor of 1.5-2, were manufactured from these alloys.</abstract><pub>Trans Tech Publications Ltd</pub><doi>10.4028/www.scientific.net/MSF.534-536.1585</doi><tpages>4</tpages></addata></record> |
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| source | Scientific.net Journals |
| title | Preparation, Structure, and Properties of Ni3Al and NiAl Light Powder Alloys for Aerospace |
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